about
Glycerol is a suberin monomer. New experimental evidence for an old hypothesisNew insights into the properties of pubescent surfaces: peach fruit as a modelThe influence of water on the nanomechanical behavior of the plant biopolyester cutin as studied by AFM and solid-state NMRCYP94A5, a new cytochrome P450 from Nicotiana tabacum is able to catalyze the oxidation of fatty acids to the omega-alcohol and to the corresponding diacid.Exploring candidate genes for pericarp russet pigmentation of sand pear (Pyrus pyrifolia) via RNA-Seq data in two genotypes contrasting for pericarp color.Cloning, functional expression, and characterization of CYP709C1, the first sub-terminal hydroxylase of long chain fatty acid in plants. Induction by chemicals and methyl jasmonate.A genomic approach to suberin biosynthesis and cork differentiation.Environmental effects on the maturation of the endodermis and multiseriate exodermis of Iris germanica roots.Evidence for possible involvement of an elastolytic serine protease in aspergillosis.Reverse genetic characterization of cytosolic acetyl-CoA generation by ATP-citrate lyase in Arabidopsis.Elucidating how the saprophytic fungus Aspergillus nidulans uses the plant polyester suberin as carbon source.Chemical and structural analysis of Eucalyptus globulus and E. camaldulensis leaf cuticles: a lipidized cell wall region.A large family of class III plant peroxidases.RNA-Seq reveals leaf cuticular wax-related genes in Welsh onionGenetic interactions underlying the biosynthesis and inhibition of β-diketones in wheat and their impact on glaucousness and cuticle permeabilityFungal diversity of saprotrophic litter fungi in a Mediterranean maquis environment.Overexpression of AtSHN1/WIN1 provokes unique defense responses.Mechanism by which contact with plant cuticle triggers cutinase gene expression in the spores of Fusarium solani f. sp. pisiLitter Breakdown and Microbial Succession on Two Submerged Leaf Species in a Small Forested StreamW3 Is a New Wax Locus That Is Essential for Biosynthesis of β-Diketone, Development of Glaucousness, and Reduction of Cuticle Permeability in Common Wheat.Heterologous expression and secretion of a Streptomyces scabies esterase in Streptomyces lividans and Escherichia coliIdentification of a protein-binding sequence involved in expression of an esterase gene from Streptomyces scabies.Cloning, sequencing, and regulation of expression of an extracellular esterase gene from the plant pathogen Streptomyces scabiesDiscovery of a cutinase-producing Pseudomonas sp. cohabiting with an apparently nitrogen-fixing Corynebacterium sp. in the phyllosphere.Purification and characterization of a novel extracellular esterase from pathogenic Streptomyces scabies that is inducible by zinc.Investigation of the Fusarium virguliforme Transcriptomes Induced during Infection of Soybean Roots Suggests that Enzymes with Hydrolytic Activities Could Play a Major Role in Root Necrosis.The Eucalyptus grandis NBS-LRR Gene Family: Physical Clustering and Expression Hotspots.Estimation of the solubility parameters of model plant surfaces and agrochemicals: a valuable tool for understanding plant surface interactionsThe biological significance of ω-oxidation of fatty acids.Suberin: biosynthesis, regulation, and polymer assembly of a protective extracellular barrier.Molecular cloning and sequencing of the cDNA and gene for a novel elastinolytic metalloproteinase from Aspergillus fumigatus and its expression in Escherichia coli.Epiallelic changes in known stress-responsive genes under extreme drought conditions in Brassica juncea (L.) Czern.Which properties of cutinases are important for applications?Diverse functions and reactions of class III peroxidases.Quantification of lateral heterogeneity in carbohydrate permeability of isolated plant leaf cuticles.Lignin Valorization through Catalytic Lignocellulose Fractionation: A Fundamental Platform for the Future Biorefinery.Differential expression and evolution of the Arabidopsis CYP86A subfamily.Anti-inflammatory effects of methyl ursolate obtained from a chemically derived crude extract of apple peels: potential use in rheumatoid arthritis.A comparison of suberin monomers from the multiseriate exodermis of Iris germanica during maturation under differing growth conditions.Cuticular Waxes of Arabidopsis thaliana Shoots: Cell-Type-Specific Composition and Biosynthesis.
P2860
Q24631138-363E6982-60C9-4FEB-8F41-E8E0A99496B7Q28741817-0D7B2564-D7F7-4CE3-A6D8-ED7B605BEFDFQ30618760-E04125AD-DA1C-400B-9755-1B53967F22BFQ30669339-8B5C12A8-E1C7-4C21-8890-251C49253E5DQ30727957-5EB13AD9-598C-4EE4-9278-76E808085717Q33222216-8B31A81F-63F5-4A32-8A9F-FBEF3837FC85Q33277811-D5F992A7-DC3E-4E3D-AA3B-273752549DA0Q33346612-AA46D530-AE7E-4E11-883D-89EA620F5BE4Q33599272-571F0CFC-225A-4685-9051-6AE5897091ECQ33983900-1B8B820D-1376-4A59-A55A-266A4F86B5E8Q33984641-08118797-7C4D-4352-B5E7-ECC1B482531FQ34192848-5153A7D8-93E6-4D0D-AA7D-4F5A7BEFD700Q34267750-D8E36E83-6F03-4BD2-92E0-C05C324475E6Q34557577-C8F43C7D-E0F5-4A15-B718-7908F08E8937Q34562666-36B0AECB-5D06-47BD-A00A-B61A9BD91111Q34900608-D0C3FD6A-829D-4390-A560-A30EDA951069Q34906261-3F1078D1-C4B8-486F-A359-32D7A81BB428Q35594759-91B29880-1489-4F7E-97D2-4F7DF3F269FEQ35670628-37200E61-6BCE-4C22-9EB6-E4BA1B64EC86Q35807941-597938E9-B640-459E-A977-5E5A66F40FBEQ36110815-4BAA4D76-D9FD-426F-9298-66B9496346FEQ36113541-8470A877-3AAF-47D0-AE0F-284707BA86B9Q36192625-D93F9B84-0F02-4907-B335-985AA4EB4DD1Q36226376-FD327DDA-78D4-42E4-86AF-559C2970AFACQ36236124-9FBB8CDA-576F-4FDA-BD9E-CF208D0E67FBQ36251439-23939239-5DF3-461F-8AB0-A7E7F22F2F0BQ36453042-C75E1326-35B7-4EEC-B70E-E630B73E1040Q37140650-0D96899B-F30A-4C20-8637-BB73412D8F16Q37321663-5E06481E-B184-473E-A48C-A6124714EEE7Q38287585-94204455-730D-4DE2-AAA9-74551EAFF6EFQ38303758-DC42C7E4-0C55-46CF-AA5A-970ABB097BB8Q38440293-B037A389-B308-4585-B21E-F74E0739DF54Q38485677-73EA39F8-5C83-44C3-95CD-BB39BD5ECABDQ38626711-1982A038-37AF-4051-9028-772D5303FDB1Q38834875-93CD40F1-11B7-4C59-B57F-4D03C8ACAF69Q38856730-20BEE442-E830-4D52-A165-83EBBFE5CE53Q38978601-9334C324-FA40-4566-955D-ED8D59602046Q39004078-ED8504AD-B325-412D-8429-8C99493F194EQ39248332-932123AB-20DE-4E43-8D09-67622BC9A5DCQ39420729-81F3EB94-CF47-4CF5-B526-B70A1E50D454
P2860
description
1980 nî lūn-bûn
@nan
1980 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1980 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1980年の論文
@ja
1980年論文
@yue
1980年論文
@zh-hant
1980年論文
@zh-hk
1980年論文
@zh-mo
1980年論文
@zh-tw
1980年论文
@wuu
name
Biopolyester membranes of plants: cutin and suberin.
@ast
Biopolyester membranes of plants: cutin and suberin.
@en
Biopolyester membranes of plants: cutin and suberin.
@nl
type
label
Biopolyester membranes of plants: cutin and suberin.
@ast
Biopolyester membranes of plants: cutin and suberin.
@en
Biopolyester membranes of plants: cutin and suberin.
@nl
prefLabel
Biopolyester membranes of plants: cutin and suberin.
@ast
Biopolyester membranes of plants: cutin and suberin.
@en
Biopolyester membranes of plants: cutin and suberin.
@nl
P1433
P1476
Biopolyester membranes of plants: cutin and suberin.
@en
P2093
Kolattukudy PE
P304
P356
10.1126/SCIENCE.208.4447.990
P407
P577
1980-05-01T00:00:00Z